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Leishmania Sexual Reproductive Strategies as Resolved through Computational Methods Designed for Aneuploid Genomes

Jahangheer Shaik, Deborah E. Dobson, David L. Sacks, Stephen M. Beverley

2021Genes27 citationsDOIOpen Access PDF

Abstract

A cryptic sexual reproductive cycle in Leishmania has been inferred through population genetic studies revealing the presence of hybrid genotypes in natural isolates, with attempts made to decipher sexual strategies by studying complex chromosomal inheritance patterns. A more informative approach is to study the products of controlled, laboratory-based experiments where known strains or species are crossed in the sand fly vector to generate hybrid progeny. These hybrids can be subsequently studied through high resolution sequencing technologies and software suites such as PAINT that disclose inheritance patterns including ploidies, parental chromosome contributions and recombinations, all of which can inform the sexual strategy. In this work, we discuss the computational methods in PAINT that can be used to interpret the sexual strategies adopted specifically by aneuploid organisms and summarize how PAINT has been applied to the analysis of experimental hybrids to reveal meiosis-like sexual recombination in Leishmania.

Topics & Concepts

BiologyHybridMeiosisGeneticsLeishmaniaInheritance (genetic algorithm)GenomeEvolutionary biologySexual reproductionPopulationReproductive isolationChromosomeComputational biologyGeneWorld Wide WebComputer scienceBotanySociologyDemographyParasite hostingResearch on Leishmaniasis StudiesTrypanosoma species research and implicationsInsect symbiosis and bacterial influences
Leishmania Sexual Reproductive Strategies as Resolved through Computational Methods Designed for Aneuploid Genomes | Litcius